Patterns of gene divergence and VL promoter activity in immunoglobulin light chain clusters of the channel catfish.

The structure and genomic organization of V, J, and C segments in multiple gene clusters of the G class of catfish light (L) chain were determined to study evolutionary patterns of cluster divergence and regulatory function. The results showed that the organizational pattern is conserved; two VL segments reside in opposite transcriptional orientation to a pseudogene JL segment (psiJ), a functional JL segment, and a CL segment. Structures within the central V-psiJ-J-C regions indicate that cluster duplication occurred after the V-V-psiJ-J-C organization became fixed. VL divergence in gene clusters subsequently occurred by mechanisms that principally targeted complementarity-determining regions. The sequence of the VL-flanking regions, which contained regulatory octamer, TATA, and Pax-5 (BSAP) binding site motifs, was conserved during G cluster duplication and within VL-flanking regions in divergent lineages of bony fish. Reporter assays of catfish B cells transfected with a 742-bp VL-flanking fragment showed promoter activity in the absence of enhancer elements. The promoter's activity doubled when coupled with the catfish IgH enhancer. A 136-bp fragment containing the motifs conserved in bony fish phylogeny and located between the leader initiation codon and the initiation sites of sterile transcripts served as a minimal promoter and provided the highest B-cell activity. These constructs, however, did not act as promoters in catfish non-lymphoid cells or mammalian BJA-B B cells or fibroblasts. These results indicate that the structure and function of VL promoter regions in the regulation and tissue specificity of L-chain gene expression evolved early in phylogeny.